When two particles performing SHM of same amplitude and frequency arriving at a point of medium simultaneously with phase difference of `pi/2`, then the resultant path is

Three waves of equal frequency having amplitudes 10mum , 4mum , 7mum arrive at a given point with successive phase difference of pi//2 , the amplitude of the resulting wave in mum is given by

A particle starting at the end of its swing performs S.H.M. of amplitude 0.1 m and frequency 60 vibrations per minute. The displacement of the particle at the end of 2 s is

Assertion: If two waves of same amplitude produce a resultant wave of same amplitude,then the phase difference between them will be 120 ^(@) Reason: The resultant amplitude of two waves is equal to vector sum of amplitudes treated as vectors

A particle starting from extreme position performs S.H.M. of amplitude 0.12 m and frequency 40 vibrations per minute. What is the dusplacement of a particle at the end of 2 second ?

A particle performs SHM of amplitude 10 cm. Its maximum velocity during oscillation is 100 cm/s. What is its displacement, when the velocity is 60 cm/s.

If two waves having amplitudes 2A and A and same frequency and velocity, propagate in the same direction in the same phase, the resulting amplitude will be

The path difference of two identical waves arriving at a point is 100.5 lambda . The phase difference is 44 micrometer. The wavelength of light is used is

A particle is performing linear S.H.M. with frequency 1 Hz and amplitude 10 cm. Initially, the particle is at a distance +5 cm. Its epoch is

Two point A and B are situated at the same distance from the phase difference between the light waves passing throught A and B will be

Waves from two different sources overlap near a particular point. The amplitude and the frequency of the two waves are the same.The ratio of the intensity,when the two waves arrives in the phase to that when they arrive 90^(@) out of phase is